SV_In Class_Immunity.pdf

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Immunity
Lecturer: Beth Flott, Ed.D, RN
 Immunity
Definition - The normal
physiological response to
microorganisms and proteins as
well as conditions associated with
an inadequate or excessive
immune response
Antecedents
Defining Characteristics
Positive Consequences
Risk Factors
Negative Consequences
Interrelated Concepts
Exemplars
Immunity
Three primary functions:

Protects the body from invasion of
microorganisms and other antigens
Removes dead or damaged tissue and
cells
Recognizes and removes cell mutations
that have demonstrated abnormal cell
growth and development
 Immunity
▪ Innate Immunity – first & second lines of defense
▪ Skin, reflexes including coughing, barriers such as cilia
in lungs, normal flora
▪ Inflammation response – activated rapidly, non-
specific, chemical mediators attract many types of
cells and activate plasma protein systems to get rid of
pathogens

Acquired Immunity – third line of defense

Passive Immunity
Artificial - Introduction of antibodies through
transfusions
Natural – acquiring antibodies from mother to
baby

Active Immunity
▪ Artificial – response to an immunization
Natural – actually acquiring the
disease/pathogen
 Immunity
Acquired Immunity
Develops slowly, specific to
pathogens, has a memory
Major histocompatibility complexes
(MHC) – proteins that help
differentiate host cells from foreign
proteins. MHC presents antigens to
immune cells.
Cells Involved
B lymphocytes – produce antibodies
T lymphocytes – directly kill
microorganisms
NK cells – directly kill microorganisms
Dendritic cells – look for foreign antigens
 Immunity
B lymphocytes – Two types
First type – Plasma B Cells: Secrete
antibodies/immunoglobulins
Second type – Memory B Cells
Interacts with helper T lymphocytes
Mainly involved with humoral immunity
Immunoglobulins - responsible for the body’s
response to invading bacteria and viruses and
provide the humoral component of immune
response. Antibodies produced include:
IgG
IgM
IgD
IgE
IgA
Immunity

Antibody Functions
Direct
Neutralization – Inactivating or blocking the
binding of antigens to receptors
Agglutination – Clumping of insoluble particles
that are in suspension
Precipitation – Making a soluble antigen into
an insoluble precipitate
Indirect
Activate components of innate resistance
(including complement and phagocytes)
 Immunity

Primary response
Dominated by IgM

Secondary response
Dominated by IgG
Facilitated by Memory Cells

IgE
Defends against parasitic infections
(allergies)
IgA
Secretions of the mucous
membranes
 Immunity
T Lymphocytes – Mainly involved in cellular
immunity (four major types)
Helper T cells (CD4) – regulate most of
system’s function via protein mediators
and lymphokines
Cytotoxic T cells – directly kill foreign
antigens, may kill cells of the host
Suppressor T cells – suppress function of
helper and cytotoxic T cells to prevent
hyperimmune response
Memory T cells – remember subsequent
exposure to same antigen
 Immunity

Antigen – foreign material

Molecules bind to receptors in body

First exposure – slower to initiate

Second exposure - immune response destroys
“remembers” antigen in future; can attack
quicker
Immunity
Primary immune response
Latent period – before detection; involves
antigen processing
Activation – 7-14 days; T helper cells
stimulate cytokines which directs immune
response
Antibodies rise for several weeks;
individuals often recover during this time
Secondary immune response
Memory immune response
Subsequent exposure – memory cells
release antibodies faster due to
recognition of antigen
Booster vaccinations
 Immunity
Exaggerated Immune Response
 Immunity – Exaggerated
Immune Response

Hypersensitivity Reactions
Type I reactions are IgE-
mediated disorders.

Type II reactions are antibody-
mediated disorders.

Type III reactions are
complement-mediated
immune disorders.

Type IV reactions are T-cell–
mediated disorders.
 Immunity –
Exaggerated
Response
Type I Hypersensitivity Reactions
Allergic reactions
Antigen = allergen
Can result in anaphylaxis

Three types of cells involved – mast
cells, basophils, and T-helper cells
(CD4)
Immunity –
Exaggerated Response
Type I Hypersensitivity Reaction
▪ Initial/Primary Phase – vasodilation, vascular leakage,
smooth muscle contraction; lasts 5-60 minutes; mast cell
degranulation with histamine release

▪ Late Phase – more infiltration of tissue with eosinophils;
8 hours-several days; leukotrienes and prostaglandins
produce same delayed and prolonged response as
histamine

Anaphylaxis – systemic, life-threatening type I reaction;
antigen is introduced via injection, insect sting, or absorption
through skin or GI mucosa. Widespread edema, vascular
shock, bronchospasm and respiratory distress
 Immunity – Exaggerated
Response

Type II Hypersensitivity Reactions – Antibody-mediated
reactions
Complement and antibody receptor–mediated
phagocytosis – transfusion reaction

Complement and antibody receptor–mediated
inflammation – vascular rejection in organ
transplants

Antibody-mediated cellular dysfunction – Grave’s
disease
 Immunity – Exaggerated
Immune Response
Type II Hypersensitivity Reaction - Transfusion Reaction
A reaction that occurs with ABO incompatibility
The transfused erythrocytes are destroyed by agglutination or
complement-mediated lysis
ABO Blood Type
Consists of two major carbohydrate antigens (A and B)
that are expressed on virtually all cells
The erythrocytes of persons with type A blood have the
type A carbohydrate antigen; those with B blood carry B
antigen; those with AB blood carry both A and B antigens;
those with type O carry neither
Type O individuals are considered to be the universal
donor
Type AB are considered to be the universal recipients

https://www.redcrossblood.org/donate-blood/blood-
types.html
 Immunity – Exaggerated
Immune Response
Type III Hypersensitivity Response
Immune complex reaction
Leads to damage when comes in contact
with vessel lining or deposited in tissues
Leads to vasculitis in certain
autoimmune diseases such as lupus
Immunity – Exaggerated
Immune Response
Type IV Hypersensitivity Reaction –
Cell-Mediated Immune Responses
Direct – killing of a target cell by
an NK or cytotoxic T cell; can end
up killing infected target cells even
if virus has no bad effects; kills
virtually all infected cells
(hepatitis)

Delayed – takes 24-72 hours to
develop, cell-mediated and
includes T cells and macrophages
(reaction to PPD test; poison ivy)
Immunity
Autoimmune Response
Immunity – Autoimmune Response

Self-tolerance – the ability to differentiate self from foreign
antigens

A loss of self-tolerance can lead to autoimmune conditions

Risk factors – genetics and environmental factors such as infectious
agents
 Immunity – Autoimmune
Response

Rheumatoid Arthritis
Risk factors – women, genetic predisposition, typical onset age 40-60
Infectious agent (especially Epstein-Barr virus) may initiate
autoimmune process
Immune complexes formed – inflammatory response occurs in
synovial and musculoskeletal tissues
Membranes form new tissue that produces enzymes and encourages
additional tissue damage
Periods of exacerbation and remission
Manifestations – swelling, stiffness, pain in joints, fatigue, anorexia,
weakness
Immunity – Autoimmune Response
Systemic Lupus Erythematosus

Characterized by the production of a large variety of antibodies and immune complexes against self-
antigens – multiple organs affected
Most characteristic are against nucleic acids, histones, ribonucleoproteins and other nuclear
materials
Some symptoms are a result of a type III hypersensitivity reaction

Risk factors – women, genetic predisposition

Clinical Manifestations – butterfly rash, fatigue, photosensitivity arthritis, affects most tissues/organs
 Immunity –
Autoimmune
Response
Multiple Sclerosis
Chronic inflammatory disease involving the
degeneration of CNS myelin and loss of axons
More common in women between 20 and 40
Autoreactive T and B cells cross the blood-brain
barrier and recognize myelin and oligodendrocyte
autoantigens
Loss of myelin disrupts nerve conduction with
subsequent death of neurons and brain atrophy
White matter can be microscopically abnormal
and gray matter lesions and atrophy have been
documented
Manifestations - Paresthesias; weakness; impaired
gait; visual disturbances; and/or urinary
incontinence
Immunity –
Autoimmune
Response

Multiple Sclerosis
Types
Relapsing-remitting
Secondary progressive
Primary progressive
 Immunity – Autoimmune
Response
Psoriasis/Psoriatic Arthritis
Most common type – plaque psoriasis
Skin becomes scaly and inflamed as cells of outer
layer of skin reproduce faster than normal
Dermis and epidermis thickening d/t
hyperproliferation of keratinocytes
New dermal vessels form; neutrophils and
lymphocytes migrate to area causing inflammation
Up to 42% also develop psoriatic arthritis –
autoimmune response also affects joints leading to
stiffness, pain, and joint damage
 Immunity
Suppressed Immune Response
 Immunity – Suppressed
Immune Response

Primary
Entire immune system is inadequate
and missing some components
necessary for adequate immune
response

Secondary – person previously had intact
immune response
Induced – medications; avoid transplant
rejection
Illness
 Immunity – Suppressed
Immune Response
HIV/AIDS
HIV – retrovirus that infects cells in immune system
and leads to defects in cellular and humoral immunity
HIV 1 – leads to AIDS, most cases
HIV 2 – less pathogenic

Ranges from asymptomatic to life-threatening
condition: disease progression is highly variable
Current anti-retroviral therapy has increased length of
life
 Immunity – Suppressed Immune
Response

HIV/AIDS
Transmitted through exchange of body fluids
Infects cells that express CD4 receptor on surface
(MHC) – receptor necessary for T cells to recognize
antigens; effects CD4 T helper cells
Virus rapidly disseminates before body can elicit an
immune response
After few weeks, host develops response and partial
restoration of T lymphocytes
Virus can elude immune clearance resulting in
persistent infection
Immunity – Suppressed Immune Function

HIV/AIDS

HIV Primary Infection – 2-4 weeks after infection; fever, fatigue, headache, rash

Chronic HIV Infection – often shows no manifestations for up to several years; HIV continues to
rapidly replicate; intense reduction of circulating T lymphocytes

Symptomatic Disease – condition more severe, night sweats, diarrhea

AIDS – characterized by severe immunodeficiency, opportunistic infections/malignancies
(tuberculosis, Kaposi’s sarcoma, cytomegalovirus), and/or CD4 count falls below 200
Diagnostics – All
Immune Exemplars

CRP
ESR
Allergy testing
Antibody testing
Immunologic Assay Testing
ELISA and Western Blot - HIV
Treatments
Immunosuppresive medications
Biologic agents
Phototherapy - psoriasis
Questions??